Optoelectronic semiconductor component having an electrically insulating element

ABSTRACT

Disclosed is a non-transitory computer-readable storage medium that stores a game program that processes progress of a game using a plurality of game mediums, the game program causing a computer to execute: moving each of the game mediums along a predetermined path in a game field including a plurality of regions; first displaying a selection object capable of selecting at least one of the plurality of regions so that the selection object is fired according to an operation detected by a predetermined input unit; and changing, when one of the plurality of regions is selected by the selection object, an attribute set in the region to change the predetermined path where the game medium moves.

TECHNICAL FIELD

The present disclosure relates to a non-transitory computer-readable storage medium that stores a game program that processes the progress of a game using plural game mediums, and the like.

BACKGROUND

As electronic devices such as a smart-phone or a tablet terminal have become widespread, games for the electronic devices have been actively developed, in addition to games for home game machines. For example, Non-Patent Document 1 discloses a game in which an object owned by a player is fired towards enemy characters in a game field according to a flick operation of the player with respect to an input surface and the progress of the game is processed according to an arrangement position of the object.

Non-Patent Document 1

URL:http://www.angrybirds.jp/ab_game/angry-birds/

SUMMARY

However, in the related art game disclosed in Non-Patent Document 1, since the game is progressed according to the arrangement position of the object, the player only has a purpose of arranging the object aimed at a predetermined position, and thus, variation relating to the arrangement position of the object is small, and strategic flexibility is insufficient.

In order to solve the above problems, an object of the present disclosure is to provide a non-transitory computer-readable storage medium that stores a game program capable of realizing a game with high amusement and strategic flexibility in which movements of characters in a game field are indirectly operated by an object fired by a player, and the like.

In order to solve the above problems, according to an aspect of the present disclosure, there is provided a non-transitory computer-readable storage medium that stores a game program that processes the progress of a game using a plurality of game mediums, the game program causing a computer to execute: moving each of the game mediums along a predetermined path in a game field including a-plurality of regions; first displaying a selection object capable of selecting at least one of the plurality of regions so that the selection object is fired according to an operation detected by a predetermined input unit; and changing, when one of the plurality of regions is selected by the selection object, an attribute set in the region to change the predetermined path where the game medium moves.

Here, the “game medium” refers to arbitrary electronic data (for example, a character or an item) used by the player in the game. Similarly, the “selection object” refers to arbitrary electronic data (for example, armor piercing ammunition) used by the player in the game.

Further, the “game field” refers to a virtual space where the player arranges the game mediums in the game to progress the game. In addition, the “attribute” refers to information (for example, topography) relating to actions of the game medium (for example, a movement of the game medium) in each region included in the game field.

In the non-transitory computer-readable storage medium according to the aspect of the present disclosure, the game program may cause the computer to further execute: retrieving at least one of a firing strength, a firing direction and a firing angle of the selection object based on the operation, in which the first displaying may include displaying the selection object so that the selection object is fired into the game field while drawing a locus determined according to at least one of the firing strength, the firing direction and the firing angle retrieved by the retrieving.

In the non-transitory computer-readable storage medium according to the aspect of the present disclosure, the game field may be a three-dimensional game field having a width, a depth and a height, and the game program may cause the computer to further execute: second displaying the game field to be looked down on from a predetermined angle.

In the non-transitory computer-readable storage medium according to the aspect of the present disclosure, at least one of a moving direction, a movable distance and a moving speed may be set in each of the plurality of game mediums, and the moving may include moving each of the game mediums based on at least one of the moving direction, the movable distance and the moving speed.

In the non-transitory computer-readable storage medium according to the aspect of the present disclosure, the attribute may at least include an inhibiting attribute for inhibiting the movement of the game medium or a promoting attribute for promoting the movement of the game medium, and the changing may include changing the predetermined path by changing the attribute set in the region into the inhibiting attribute or the promoting attribute.

In the non-transitory computer-readable storage medium according to the aspect of the present disclosure, the plurality of game mediums may be characters operated by the player, and an opponent player or the computer that fights with the player, respectively.

In the non-transitory computer-readable storage medium according to the aspect of the present disclosure, the game may have a purpose of occupying a predetermined position in the game field protected by an opponent player by the game mediums capable of being operated by the player.

In order to solve the above problems, according to another aspect of the invention, there is provided a method of controlling a computer that processes the progress of a game using a plurality of game mediums, the method including: moving each of the game mediums along a predetermined path in a game field including a plurality of regions; first displaying a selection object capable of selecting at least one of the plurality of regions so that the selection object is fired according to an operation detected by a predetermined input unit; and changing, when one of the plurality of regions is selected by the selection object, the predetermined path where the game medium moves.

The method according to the aspect of the present disclosure may further include: retrieving at least one of a firing strength, a firing direction, and a firing angle of the selection object based on the operation, in which the first displaying includes displaying the selection object so that the selection object is fired into the game field while drawing a locus determined according to at least one of the firing strength, the firing direction and the firing angle retrieved by the retrieving.

In the method according to the aspect of the present disclosure, the game field may be a three-dimensional game field having a width, a depth and a height, and the method may further include: second displaying the game field to be looked down on from a predetermined angle.

In the method according to the aspect of the present disclosure, at least one of a moving direction, a movable distance and a moving speed may be set in each of the plurality of game mediums, and the moving may include moving each of the game mediums based on at least one of the moving direction, the movable distance and the moving speed.

In the method according to the aspect of the present disclosure, the attribute may include at least an inhibiting attribute for inhibiting the movement of the game medium or a promoting attribute for promoting the movement of the game medium, and the changing may include changing the predetermined path by changing the attribute set in the region into the inhibiting attribute or the promoting attribute.

In the method according to the aspect of the present disclosure, the plurality of game mediums may be characters operated by the player, an opponent player or the computer that fights with the player, respectively.

In the method according to the aspect of the present disclosure, the game may have a purpose of occupying a predetermined position in the game field protected by an opponent player by the game medium capable of being operated by the player.

In order to solve the above problems, according to still another aspect of the present disclosure, there is provided a computer that processes the progress of a game using a plurality of game mediums, including: a moving section that moves each of the game mediums along a predetermined path in a game field including a plurality of regions; a first display section that displays a selection object capable of selecting at least one of the plurality of regions so that the selection object is fired according to an operation detected by a predetermined input unit; and a change section that changes, when one of the plurality of regions is selected by the selection object, the predetermined path where the game medium moves.

The computer according to the aspect of the present disclosure may further includes: a retrieving section that retrieves at least one of a firing strength, a firing direction, and a firing angle of the selection object based on the operation, the first display section may display the selection object so that the selection object is fired into the game field while drawing a locus determined according to at least one of the firing strength, the firing direction and the firing angle retrieved by the retrieving section.

In the computer according to the aspect of the present disclosure, the game field may be a three-dimensional game field having a width, a depth and a height, and the computer may further include: a second display section that displays the game field to be looked down on from a predetermined angle.

In the computer according to the aspect of the present disclosure, at least one of a moving direction, a movable distance and a moving speed may be set in each of the plurality of game mediums, and the moving section may move each of the game mediums based on at least one of the moving direction, the movable distance and the moving speed.

In the computer according to the aspect of the present disclosure, the attribute may at least include an inhibiting attribute for inhibiting the movement of the game medium or a promoting attribute for promoting the movement of the game medium, and the change section may change the predetermined path by changing the attribute set in the region into the inhibiting attribute or the promoting attribute.

In the computer according to the aspect of the present disclosure, the plurality of game mediums may be characters operated by the player, and an opponent player or the computer that fights with the player, respectively.

According to the non-transitory computer-readable storage medium, the control method of the computer, and the computer according to the aspects of the present disclosure, it is possible to change a predetermined path where the game medium moves by firing the selection object capable of selecting at least one of the plural regions included in the game field to change the attribute set in the region. That is, according to the non-transitory computer-readable storage medium and the like, it is possible to indirectly operate the movement of the game medium in the game field by the object fired by the player.

Accordingly, the game program or the like have effects capable of realizing a game with high amusement and strategy.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram illustrating a main configuration of a mobile terminal according to an embodiment of the present disclosure.

FIG. 2 is a schematic view illustrating an example of a game screen displayed in a display unit included in the mobile terminal.

FIG. 3 is a schematic view illustrating an example of a firing method of a selection object.

FIG. 4 is a schematic view illustrating an example of a game screen displayed so that a selection object is fired into a game field while drawing a locus.

FIG. 5 is a schematic view illustrating an example of a game screen in which one region among plural regions is selected by a selection object and an attribute of the selected region is changed as a result.

FIG. 6 is a flowchart illustrating an example of a process executed by the mobile terminal.

DETAILED DESCRIPTION

Exemplary embodiments of the present disclosure will be described with reference to FIGS. 1 to 5.

Outline of mobile terminal 100

FIG. 2 is a schematic view illustrating an example of a game screen displayed in a display unit provided in a mobile terminal 100. The mobile terminal (computer) 100 is a computer that processes the progress of a game using plural game mediums (for example, characters 7 respectively operated by a player, and an opponent player or a computer that fights with the player). The mobile terminal 100 may be a device capable of executing processes to be described hereinafter, for example, a smart-phone, a tablet terminal, a mobile phone, a home game machine, a personal computer, or other electronic devices.

In the present exemplary embodiments, it is assumed that the “game” means a battle game having a purpose of occupying a predetermined position in a game field L protected by the opponent player by a character (game mediums) capable of being operated by the player (other purpose examples will be described in detail in “winning conditions of game”). However, the “game” is not limited to the battle game (opposing game), and for example, generally includes a cooperation game, a combat game, a communication game, and other games.

As illustrated in FIG. 2, a player or an opponent player respectively arranges ally characters 7 a capable of being operated by the player and enemy characters 7 b capable of being operated by the opponent player in a region 1 included in a game field L. The player and the opponent player may arrange all characters 7 (the ally characters 7 a and the enemy characters 7 b are collectively referred to as the characters 7) when a game starts, or may sequentially arrange the characters 7 according to the progress of the game.

The characters 7 move in a predetermined direction. In the example shown in FIG. 2, the ally character 7 a move in a direction A (that is, in a direction where the enemy characters 7 b take up their positions), and the enemy characters 7 b move in a direction B (that is, in a direction where the ally characters 7 a take up their positions).

Then, the player selects one (not shown in FIG. 2, see FIGS. 3 and 4) among plural selection objects 6 to be fired into the game field L. The player performs a predetermined touch operation (an operation of bringing a finger or an indicator into contact with or close to the touch panel to give an input to the mobile terminal 100), to set a firing strength, a firing direction and/or a firing angle of the selection object 6, and fires the selection object 6 aimed at a region 1 that is a selection target.

When the region 1 is selected by the selection object 6, an attribute corresponding to the region 1 is changed according to a parameter corresponding to the selection object 6 and/or the attribute. Further, the characters 7 respectively change their moving paths according to the change (for example, a change such that the region 1 cannot be passed by the change of the attribute).

When any ally character 7 a reaches a predetermined region protected by the opponent player, the mobile terminal 100 determines that the player wins the battle game, and terminates the battle game. On the other hand, when any enemy character 7 b reaches a predetermined region to be protected by the player, the mobile terminal 100 determines that the player was defeated in the battle game, and terminates the battle game.

As described above, the mobile terminal 100 may fire the selection object 6, may change the attribute set in the region 1, and may change the predetermined moving paths of the characters 7, according to an operation of the player. For example, when a path A and a path B are present (when plural paths are present) and the ally character 7 a is advancing on the path A as a path from a certain region to another region, the player may change the attribute to thereby change the path A to the path B.

That is, the mobile terminal 100 may indirectly operate the movement of the characters 7 in the game field L by the selection object 6. Thus, the mobile terminal 100 can realize a game with high amusement and strategic flexibility.

Configuration of mobile terminal 100

FIG. 1 is a block diagram illustrating a main configuration of the mobile terminal 100. As shown in FIG. 1, the mobile terminal 100 includes a control unit 10 (an input retrieving section 11, an object display section 12, an attribute change section 13, a field display section 14, and a character moving section 15), an input unit 40 (an input surface 41 and an input control section 42), a display unit 50, and a storage unit 30.

The control unit 10 generally controls various functions of the mobile terminal 100. The control unit 10 includes the input retrieving section 11, the object display section 12, the attribute change section 13, the field display section 14, and the character moving section 15.

The input retrieving section (retrieving function) 11 retrieves at least one of a firing strength, a firing direction and a firing angle of the selection object 6 based on a touch operation (an operation detected by a predetermined input unit) with respect to the input surface 41. The input retrieving section 11 outputs the retrieved information (strength, direction, and angle) relating to the firing of the selection object 6 to the object display section 12.

The object display section (first display function, first display section) 12 displays the selection object 6 in the display unit 50 (predetermined display unit) so that the selection object 6 capable of selecting at least one of the plural regions included in the game field is fired according to a touch operation detected by the input surface 41. Here, the object display section 12 may display the selection object 6 in the display unit 50 so that the selection object 6 is fired into the game field L while drawing a locus determined according to at least one of the strength, direction, and angle retrieved by the input retrieving section 11.

When one region of the plural regions is selected by the selection object 6, the attribute change section (change function, change section) 13 changes predetermined moving paths of the characters 7 by changing an attribute set in the region. Here, the attribute is information (for example, topography) relating to actions of the characters 7 (for example, movements of the characters 7) in each region included in the game field L, and at least includes an inhibiting attribute for inhibiting the movements of the characters 7 or a promoting attribute for promoting the movements of the game mediums. Further, the attribute change section 13 may change the attribute set in the region to the inhibiting attribute or the promoting attribute, to thereby change the predetermined paths.

The field display section (second display function) 14 looks down on the game field L from a predetermined angle to be displayed in the display unit 50. For example, as shown in FIGS. 2 to 5, the field display section 14 may display the game field L in a quarter view of an angle of 45 degrees. Here, the game field L may be a three-dimensional game field having width, depth, and height.

The character moving section (movement function, moving section) 15 moves the characters 7 along the predetermined paths in the game field L which is a stage where the game is progressed. Here, in each of the plural characters 7, at least one of a moving direction, a movable distance, and a moving speed is set. Further, the character moving section 15 may move each of the characters 7 based on at least one of the moving direction, the movable distance and the moving speed.

The input unit 40 receives a touch operation from the player. In the present exemplary embodiment, the input unit 40 may be a touch panel on which a multi-touch can be detected. The input unit 40 includes the input surface 41 and the input control section 42. A method of giving an input to the mobile terminal 100 is not limited to the touch operation using the touch panel (for example, the input may be given by pressing a predetermined input key).

The input surface 41 is a device (for example, a touch surface included in the touch panel) capable of detecting a position designated by the touch operation of the player. The input surface 41 outputs coordinate information corresponding to the designated position to the input control section 42.

The input control section 42 retrieves the coordinate information from the input surface 41 at predetermined time intervals, and outputs a series of the coordinate information to the input retrieving section 11 as a locus.

The display unit 50 is a device that displays a game screen. In the present exemplary embodiment, the display unit 50 may be a liquid crystal display. In FIG. 1, the input unit 40 and the display unit 50 are separately shown in order to clarify respective functions thereof. However, for example, when the input unit 40 is a touch panel and the display unit 50 is a liquid crystal display, it is preferable that both the input unit 40 and the display unit 50 be integrally configured.

The storage unit 30 is a storage device configured by an arbitrary recording medium such as a hard disk, a solid state drive (SSD), a semiconductor memory or a DVD, and stores a game program capable of controlling the mobile terminal 100 and data.

Type of selection object 6

The selection object 6 may be assigned to a player (1) by a lottery and/or (2) as the player satisfies a predetermined condition (for example, according to a combat result of the player in a predetermined game). The player may have plural selection objects 6, and in this case, the selection object 6 to be fired by the player may be arbitrarily selected.

Different parameters (flying distance, offensive power, influence range, accuracy, the number of allowable firings, or the like) may be set in the respective selection objects 6. Thus, the mobile terminal 100 can enhance the strategic flexibility of the game.

For example, when a setting is performed so that the selection object 6 that reaches a long distance has a weak offensive power and the selection object 6 that reaches only a short distance has a strong offensive power, the player may need a strategy for selecting the selection object 6 to be fired and/or the region 1 to be aimed at, in consideration of distances to the characters 7 in the game field L and/or moving speeds of the characters 7, for example.

Further, when an influence range varies for each selection object 6, the player may need a strategy for selecting the selection object 6 and the region 1 to be aimed at according to the density of the characters 7 in the game field L and/or the area of the region 1 where the attribute change is necessary. Further, when the number of allowable firings is set for each selection object 6, the player may need a strategy for firing the selection object 6 in the region 1 at an appropriate timing in consideration of the arrangements of the characters 7 in the field L and/or the number of paths, for example.

When the region 1 is selected by the selection object 6, the amount of change (variation) of the attribute set in the region 1 may vary for each selection object 6. For example, the mobile terminal 100 may increase the variation as the selection object 6 becomes stronger. In this case, it is preferable that the mobile terminal 100 reduce the number of allowable firings of the selection object 6 as the selection object 6 becomes stronger. Thus, the mobile terminal 100 can appropriately maintain the balance of the game.

Further, the mobile terminal 100 may change the variation according to the type of the selection object 6 and the attribute of the region 1. For example, when the selection object 6 is “armor piercing ammunition”, the mobile terminal 100 may increase the variation with respect to a region having a “wall” attribute (that is, the mobile terminal 100 may be configured so that it is effective to fire the “armor piercing ammunition” in order to break the “wall”).

Fired of Selection Object 6

FIG. 3 is a schematic view illustrating an example of a method of firing the selection object 6. As described above, the mobile terminal 100 may display the selection object 6 in the display unit 50 so that the selection object 6 is fired into the game field L while drawing a locus 1 determined according to at least one of a strength S, a direction d and an angle θ retrieved by the input retrieving section 11. In the example shown in FIG. 3, as a game medium that fires the “armor piercing ammunition” which is the selection object 6, a “cannon” is displayed.

That is, the player may determine a firing strength, a firing direction and/or a firing angle of the selection object 6 by inputting a flick operation having a predetermined angle and a predetermined length to the input surface 41|[r1] using the selection object 6 as a starting point. Specifically, the mobile terminal 100 may determine the firing direction and the firing angle of the selection object 6 from an angle of a locus drawn by the flick operation using the selection object 6 as the starting point, and may determine the firing strength of the selection object 6 from the length of the locus.

In this case, the player may determine the firing strength, the firing direction and/or the firing angle of the selection object 6 by inputting a flick operation of drawing a locus (for example, an L-shaped locus) bent through the selection object 6 to the input surface 41. Specifically, the mobile terminal 100 may determine the firing strength of the selection object 6 from the length of the L-shaped locus in a longitudinal direction, and may determine the firing direction and the firing angle of the selection object 6 from the length of the L-shaped locus in a transverse direction.

Further, the mobile terminal 100 may fire the selection object 6 along the locus 1 that is drawn as a parabola to receive the influence of virtual gravity (which is acceleration applied in a direction along an axis that represents the height in a three-dimensional space set in the game field L) in the game field L, or may fire the selection object 6 along a linear locus 1 so as not to receive the influence.

Further, the mobile terminal 100 may display (1) a bar for determining at least one of the firing strength, the firing direction and the firing angle of the selection object 6 and/or (2) an arrow-shaped indication object on a screen. The indication object may be continuously changed in its length and/or direction, and at least one of the firing strength, the firing direction and the firing angle of the selection object 6 may be determined by the length and/or direction of the indication object according to a timing of the touch operation by the player.

In addition, the mobile terminal 100 may fire the selection object 6 from a predetermined region 1 in the game field L to be protected by the player. For example, when a predetermined end portion of the game field L is selected by the player, the mobile terminal 100 may fire the selection object 6 from the region 1 in the end portion selected by the player. Further, the mobile terminal 100 may fire the selection object 6 from plural regions 1 included in the game field. L, and in this case, the mobile terminal 100 may select and fire plural different selection objects 6.

Further, the mobile terminal 100 may determine whether a predetermined condition is satisfied, and when the predetermined condition is satisfied, the mobile terminal 100 may change the region 1 into which the selection object 6 can be fired. For example, the mobile terminal 100 may determine whether a predetermined time has elapsed after the game starts as one of the predetermined conditions, and when the predetermined time has elapsed, the mobile terminal 100 may increase the range of the region 1 to which the selection object 6 can be fired. Further, the mobile terminal 100 may determine whether the character 7 reaches a predetermined position as one of the predetermined conditions, and when the character 7 reaches the predetermined position, the mobile terminal 100 may increase the range of the region 1 to which the selection object 6 can be fired. In addition, the mobile terminal 100 may determine the region 1 into which the selection object 6 can be fired according to a position where the character 7 is arranged. Thus, the mobile terminal 100 can request strategic thinking and an appropriate action operation at an appropriate time by the player, and thus, it is possible to achieve a game with high amusement and strategic flexibility.

Characteristic of Character 7

The ally characters 7 a may be assigned to the player (1) by a lottery and/or (2) as the player satisfies a predetermined condition (for example, according to a combat result of the player in a predetermined game). The player may have plural types of ally characters 7 a, and in this case, the player may arbitrarily select the ally character 7 a to be used in the game.

Different parameters (a moving speed, a moving direction, a moving path, an offensive power, physical strength, and the like) may be set in the characters 7 that move in the game field L, so that the mobile terminal 100 may move the characters 7 according to the parameters. Further, the parameters may include state information indicating states of the characters 7 (for example, hit points, magic points, an offensive power, a defensive power, experience points, physical strength, speed, necessary ability points, a special move, a support skill, a usage count, survival, death, paralysis, freeze, poison, or the like). Thus, the mobile terminal 100 can display the characters 7 with sufficient variation in the game field L, and thus, it is possible to realize a game with high amusement and strategic flexibility.

For example, the player may need a strategy for predicting a moving path of the character 7 from a moving speed and/or a moving direction of each character 7 and firing the selection object 6 into an appropriate region 1, for example. Further, when (1) a movable path and/or (2) a preferentially selected path varies for each character 7 (for example, when there are a character 7 capable of moving in water, a character 7 capable of getting over an elevation difference, and a character 7 that preferentially moves in a swamp), the player may predict various paths, and may need a strategy for firing the selection object 6, for example.

Further, in the game field L, when the characters 7 are respectively operated by the player and the opponent player or the computer, combat between the ally character 7 a and the enemy character 7 b may be performed in the game field L. Thus, the mobile terminal 100 can provide a change in the progress of the combat, such as a stage of the combat and an increase or decrease of the number of the characters 7 in the combat, and thus, it is possible to realize a game with high amusement and strategic flexibility.

For example, the player may need a strategy for firing the selection object 6 to increase the moving speed and the degree of freedom of path selection with respect to a path where the number of the ally characters 7 a is large, and contrarily, the player may need a strategy for firing the selection object 6 to decrease the moving speed and the degree of freedom of path selection with respect to a path where the number of the enemy characters 7 b is large.

The mobile terminal 100 may assign an experience value to the selection object 6 and the characters 7 according to the progress of the game. When an accumulated value of the experience values exceeds a predetermined threshold value, the levels of the selection object 6 and/or the characters 7 become high. The mobile terminal 100 may change the parameters of the selection object 6 and/or the characters 7 as the levels of the selection object 6 and/or the characters 7 become high.

Thus, the mobile terminal 100 can assign the amusement of training the selection object 6 and/or the characters 7 to a user. Accordingly, the mobile terminal 100 can provide a feeling of immersion in the game to the user.

The ally characters 7 a and/or the selection object 6 may be operated by plural players. For example, the plural selection objects 6 may be respectively operated by plural players, or the selection object 6 and the ally characters 7 a may be individually operated by different players. In this case, a first player who operates the characters 7 may inform a second player who operates the selection object 6 of a desired moving path of the ally characters 7 a in advance, to thereby make it possible to achieve an unexpected development of the game with respect to the battle player. Accordingly, the mobile terminal 100 can arouse the necessity of cooperation between the players, and can demand a higher level of strategic flexibility of the player. Thus, it is possible to provide a game with high amusement and strategic flexibility.

Change in Attribute of Region

As described above, when one of plural regions is selected by the selection object 6, the mobile terminal 100 may change the attribute set in the region, to thereby change a predetermined moving path of the character 7.

FIG. 4 is a schematic view illustrating an example of a game screen displayed so that the selection object 6 is fired into the game field L while drawing the locus. Further, FIG. 5 is a schematic view illustrating an example of a game screen in which one region among plural regions is selected by the selection object 6 and an attribute of the selected region is changed as a result.

As illustrated in FIG. 4, by selecting a region by the selection object 6, the player may change the attribute of the region (1) to lean a ladder against a cliff that is present in the region (see reference numeral 11 in FIG. 4), (2) to pile rocks on the cliff to make it higher (see reference numeral 12 in FIG. 4), or (3) to warp the character 7 from the region to a separate region. Thus, the player may create a path where the character 7 is able to move in a region with an elevation difference, for example.

As illustrated in FIG. 5, contrarily, the player may change the attribute of the region so as to (1) break the ladder (see reference numeral 11 in FIG. 5), (2) destroy the cliff (see reference numeral 12 in FIG. 5), or (3) negate the effect of the warp. Thus, the player may also block the path where the character 7 is able to move in the region with the elevation difference.

Further, by changing the attribute as described above, the player may change the moving paths of the characters 7, and may also change the parameters of the characters 7. For example, by selecting the region by the selection object 6, the player may destroy a bridge that exists in the region, on which the enemy character 7 b is moving, to damage the enemy character 7 b (to reduce the physical strength of the enemy character 7 b).

Further, as described above, the attribute may at least include the inhibiting attribute for inhibiting the movements of the characters 7 or the promoting attribute for promoting the movements of the characters 7. For example, by selecting the region by the selection object 6, the player may change the attribute of the region (1) to dispose a sticky item in the region, (2) to change the topography of the region into a topography where it takes time for movement (for example, swamp, valley, mountain or the like) (see reference numeral 13 in FIG. 4), or (3) to create a wasteland (see reference numeral 14 in FIG. 4). Thus, the player may lower the moving speeds of the characters 7.

The effects illustrated in (1) to (3) may also be continuously generated with respect to (a) the character 7 that will pass through the region in the future and/or (b) the character 7 that has passed through the region once or more.

Contrarily, the player may change the attribute of the region (1) to generate floating matter capable of transporting the character 7 on the water or in the air (see reference numeral 13 in FIG. 5), (2) to change the topography of the region into a topography where it does not take time for movement (for example, a flat land or the like), or (3) to level the wasteland (see reference numeral 14 in FIG. 5). Thus, the player may increase the moving speeds of the characters 7.

Further, the mobile terminal 100 may set durability in each region. In this case, if a region is selected by the selection object 6, the mobile terminal 100 accumulates change values of an attribute assigned by the selection, and when the accumulated value exceeds the durability, the mobile terminal 100 changes the attribute of the region. The change value may be determined based on the offensive power of the selection object 6 and/or the defensive power of the region, for example.

The mobile terminal 100 may arrange an item capable of supporting the character 7 in the game field L. For example, the mobile terminal 100 may arrange (1) a jewel box in which an item for increasing the moving speed of the character 7 is stored, (2) an item for recovering the physical strength of the character 7, and/or (3) a coin capable of being exchanged for a predetermined item. Further, when a region is selected by the selection object 6, the mobile terminal 100 may show an item capable of supporting the character 7 in the region. Thus, the mobile terminal 100 can provide a game with sufficient variation to the player.

Further, when one of plural regions is selected by the selection object 6, the mobile terminal 100 may change the attribute set in the region, and also may change state information indicating the state of the character 7 included in the region. For example, when the cliff included in the region is destroyed (see reference numeral 12 in FIG. 5), the mobile terminal 100 may reduce the hit points (physical strength) of the enemy character 7 b that stands on the cliff. Alternatively, when the topography of the region is changed into “swamp”, the mobile terminal 100 may reduce the moving speed of the enemy character 7 b that exists in the “swamp”, and may move the enemy character 7 b to another region adjacent to the region (which represents that the enemy character 7 b comes out of the “swamp”). That is, the mobile terminal 100 may change the state information of the character 7 included in the region selected by the selection object 6 to change a predetermined path where the character 7 moves.

Winning Conditions of Game

As described above, in the present exemplary embodiment, the mobile terminal 100 has the purpose of occupying a predetermined position included in the game field L protected by the opponent player by the character 7 capable of being operated by the player, in the battle game. In this case, for example, when the character 7 a of the player reaches a castle that is present in the predetermined region, the mobile terminal 100 determines the player as a winner.

On the other hand, the mobile terminal 100 may set another purpose as the purpose of the battle game. For example, the mobile terminal 100 may have a purpose of destroying plural buildings included in the game field L protected by the opponent player by the characters 7 a capable of being operated by the player, in the battle game. In this case, the mobile terminal 100 may determine the player as the winner when a predetermined number of buildings are destroyed by the characters 7 a of the player. Alternatively, the mobile terminal 100 may determine a player who has the largest number of regions 1 occupied by the character 7 a and/or the largest number of destroyed buildings as the winner in the battle game. Further, the mobile terminal 100 may have a purpose of defeating a specific character 7 b (boss character) arranged in the game field L protected by the opponent player by the characters 7 a capable of being operated by the player, in the battle game.

Further, the mobile terminal 100 may give a reward advantageous to the progress of the game to the player as the character 7 a capable of being operated by the player intrudes into a predetermined range in the game field L. For example, when the character 7 a of the player intrudes into the region 1 set as a domain of the battle opponent, the mobile terminal 100 may enhance the parameters of the character 7 a of the player and/or the selection object 6.

As described above, since the mobile terminal 100 requires the player to consider a strategy that reflects the overall game field in excess of a local combat result, it is possible to provide a game with high amusement and strategic flexibility.

Process Executed by Mobile Terminal 100

FIG. 5 is a flowchart illustrating an example of a process executed by the mobile terminal 100. In the following description, “steps” written in brackets represent respective steps included in a control method of a computer.

The character moving section 15 moves each character along a predetermined path in the game field L which is a stage where the game is progressed (step 1, movement step, hereinafter, “step” is simply referred to as “S”). Then, the object display section 12 displays the selection object 6 in the display unit 50 so that the selection object 6 capable of selecting at least one of plural regions included in the game field L is fired according to a touch operation detected by the input surface 41 (S2, first display step). Further, the attribute change section 13 determines whether at least one of the plural regions is selected by the selection object (S3), and when at least one region is selected (YES in S3), the attribute change section 13 changes the attribute set in the region to change the predetermined path where the character moves (S4, change step)

The control method may arbitrarily include processes executed in the respective sections other than the character moving section 15, the object display section 12, and the attribute change section 13, in addition to the above-described processes described with reference to FIG. 5.

Effects of the Mobile Terminal 100

The mobile terminal 100 may change the predetermined path where the character 7 moves by firing the selection object 6 according to the operation of the player to change the attribute set in the region 1. That is, the mobile terminal 100 may indirectly operate the movement of the character 7 in the game field L by the selection object 6. Thus, the mobile terminal 100 can realize a game with high amusement and strategic flexibility.

Configuration in which Server 200 Provides a Part or All of Functions

Hereinbefore, a configuration in which a game program that processes the progress of the game using the plural game mediums is mainly executed by the mobile terminal 100 is described. On the other hand, a configuration in which part of the game program or the entirety thereof is executed by the server 200 and a result of the executed process is returned to the mobile terminal 100 may be used. When the computer of the present exemplary embodiment of the present disclosure functions as a server device (server 200) connected to a player terminal through a network, a hybrid game in which the server device and the player terminal respectively perform a part of the processes may be used. Here, for example, a game progress screen may be displayed in the player terminal as a web display based on data generated by the server device, and other menu screens or the like may be displayed by a native application installed in the player terminal as a native display. Thus, when the mobile terminal 100 provides the functions, the server 200 obtains the same effects as the effects of the mobile terminal 100.

Realization Examples Based on Software

The control blocks (particularly, the control unit 10) of the mobile terminal 100 and the server 200 may be realized by a logical circuit (hardware) formed as an integrated circuit (IC chip) or the like, or may be realized by software using a central processing unit (CPU). In the latter case, the mobile terminal 100 and the server 200 include a CPU that executes a command of a game program which is software for realizing each function, a read only memory (ROM) or a storage device (referred to as a “recording medium”) in which the game program and a variety of data is recorded to be readable by a computer (or CPU), a random access memory (RAM) that develops the game program, and the like. Further, the computer (or CPU) reads the game program from the recording medium, and executes the game program to achieve the purpose of the present disclosure. As the recording medium, a “non-temporary tangible medium”, for example, a tape, a disk, a card, a semiconductor memory, a programmable logical circuit or the like may be used. Further, the game program may be supplied to the computer through an arbitrary transmission medium (a communication network, broadcast waves or the like) capable of transmitting the game program. The present disclosure may also be realized in a format of a data signal, embedded in a carrier, in which the game program is realized by electronic transmission.

Specifically, the game program according to the embodiments of the present disclosure is a game program capable of processing the progress of a game using plural game mediums, and allows the computer (the mobile terminal 100 and the server 200) to execute a retrieving function, a first display function, a change function, a second display function, and a movement function.

The retrieving function, the first display function, the change function, the second display function, and the movement function may be realized by the above-described input retrieving section 11, the object display section 12, the attribute change section 13, the field display section 14, and the character moving section 15, respectively. Details thereof are as described above.

Further, the game program according to the exemplary embodiment of the present disclosure may be realized as a game program that processes the progress of a game using plural game mediums, which causes a computer to execute: a first display function of displaying a selection object capable of selecting at least one of plural regions included in a three-dimensional game field which is a stage where the game is progressed and has a width, a depth and a height so that the selection object is fired according to an operation detected by a predetermined input unit; a second display function of displaying the game field to be looked down on from a predetermined angle; and an retrieving function of retrieving at least one of a firing strength, a firing direction and a firing angle of the selection object based on the operation, in which the first displaying function includes displaying the selection object so that the selection object is fired into the game field while drawing a locus determined according to at least one of the firing strength, the firing direction and the firing angle retrieved by the retrieving function.

The game program may be installed using a script language such as ActionScript or JavaScript (Registered Trademark), an object-oriented programming language such as Objective-C or Java (Registered Trademark), a markup language such as HTML5, or the like. Further, a game system that includes an information processing terminal (for example, the mobile terminal 100) including the respective parts that realize the respective functions realized by the game program and a server including respective parts that realizes remaining functions different from the respective functions is also included in the scope of the present disclosure.

Supplementary Information

The present disclosure is not limited to the above-described examples, and may be altered by those skilled in the art within the scope of the appended claims. An example obtained by appropriately combining technical means disclosed in different examples is included in the technical scope of the present disclosure. Further, new technical features can be formed by combining technical means disclosed in the examples.

TECHNICAL APPLICABILITY

The present disclosure can be widely applied to an arbitrary computer such as a smart-phone, a tablet terminal, a mobile phone, a home game machine, a personal computer, a server, a work station, or a main frame.

DESCRIPTION OF REFERENCE SIGNS

-   1 locus -   6 selection object -   7 a character (game medium) -   7 b enemy character (game medium) -   11 input retrieving section (retrieving function) -   12 object display section (first display function, first display     section) -   13 attribute change section (change function, change section) -   14 field display section (second display function) -   15 character moving section (movement function, moving section) -   40 input unit -   100 mobile terminal (computer) -   200 server (computer) -   L game field -   l region 

1-17. (canceled)
 18. An optoelectronic semiconductor component comprising: an optoelectronic thin-film chip; and a thermally conductive and electrically insulating element, wherein both the thin-film chip and the element are embedded in a molded body, a top surface of the thin-film chip and a bottom surface of the element are not covered by the molded body, the top surface of the thin-film chip is approximately flush with a top surface of the molded body, the bottom surface of the element is approximately flush with a bottom surface of the molded body, the molded body comprises a first embedded conductor structure and a second embedded conductor structure, and the first conductor structure and the second conductor structure extends to the bottom surface of the molded body.
 19. The optoelectronic semiconductor component of claim 18, further comprising a solderable thermal contact pad being arranged at the bottom surface of the element.
 20. The optoelectronic semiconductor component of claim 18, further comprising two solderable electric contact pads electrically conductively arranged at the bottom surface of the semiconductor component and connected to the embedded conductor structures.
 21. The optoelectronic semiconductor component of claim 18, wherein the thin-film chip comprises electrical bond pads arranged on its top surface, each bond pad connected to one of the conductor structures via one bond wire, respectively.
 22. The optoelectronic semiconductor component of claim 18, wherein the element is configured as a ceramic plate.
 23. The optoelectronic semiconductor component of claim 22, wherein the element has an electrical through contact.
 24. The optoelectronic semiconductor component of claim 22, wherein the thin-film chip comprises an electrical contact arranged on its bottom surface, an electrically conductive layer is arranged on a top surface of the element, the electrically conductive layer electrically conductively connects to the contact, and the electrically conductive layer electrically conductively connects to one of the conductor structures.
 25. The optoelectronic semiconductor component of claim 24, wherein the electrically conductive layer connects to one of the conductor structures by a bond wire embedded in the molded body.
 26. The optoelectronic semiconductor component according to claim 18, wherein the thin-film chip and the element thermally conductively abut each other.
 27. A method of manufacturing an optoelectronic semiconductor component, comprising: providing an optoelectronic thin-film chip having top and bottom surfaces; thermally coupling the bottom surface to a thermally conductive and electrically insulating element; and embedding the thin-film chip and the element in a shared molded body such that a top surface of the thin-film chip and a bottom surface of the element are not covered by the molded body, the top surface of the thin-film chip is approximately flush with a top surface of the molded body, and the bottom surface of the element is approximately flush with a bottom surface of the molded body, wherein a first conductor structure and a second conductor structure are embedded in the molded body such that the first conductor structure and the second conductor structure extend to the bottom surface of the molded body.
 28. The method of claim 27, wherein a plurality of optoelectronic thin-film chips each thermally coupled to a thermally conductive and electrically insulating element are simultaneously embedded in a shared molded body.
 29. The method of claim 27, further comprising, upon embedding, establishing a bond connection between a bond pad arranged on the top surface of the thin-film chip and the first conductor structure.
 30. The method of claim 27, further comprising, upon embedding, depositing a metallization on a bottom surface of the molded body.
 31. The method of claim 27, wherein the element comprises a plurality of particles having a mean diameter of less than 100 μm arranged on the bottom surface of the thin-film chip by electrophoretic deposition.
 32. The method of claim 27, wherein the element is arranged at the bottom surface of the thin-film chip prior to separating the thin-film chip from a plurality of similar thin-film chips.
 33. The method of claim 27, wherein an electrically conductive layer is arranged on a top surface of the element facing the bottom surface of the thin-film chip, a second conductor structure is additionally embedded into the molded body, and prior to embedding, manufacturing a bond connection between the electrically conductive layer and the second conductor structure.
 34. The method of claim 27, wherein the thin-film chip is embedded into the first molded body, the element is embedded into a second molded body, and the first molded body and the second molded body is connected to form the shared molded body. 